def __init__(self, name, command, positions, verbose):
Thread.__init__(self)
self._name = name
self._positions = positions
self._verbose = verbose
command = command + " --logfile-name=" + name + ".log"
self._program = Program(command, verbose)
def send_program():
json_data = request.args.get('json_data')
print("======>>>json_data" + json_data)
program = Program(json_data)
prog_name = program.send_program()
print("send program:" + prog_name)
return {"code": "200", "program_name": prog_name}
def P15():
p = Program(num_prog_inputs=2)
p.create_add_component()
p.create_and_component()
p.create_xor_component()
p.create_bitshiftright_component(1)
return ProgramSynthesis(p, BVT.P15, 'P15')
def main():
print("Start")
#The first 2 parameters are msg_id, sig_name by which to filter the display of real-time data
#The next 2 params are the paths of the file containing the dbc definition file (in json) and the data trace
program = Program('c000003', 'TSC1EMSTECU_EngReqTrq_HR', 'data/convereted_dbc_to_json.json', "data/trace.asc")
program.plot()
def test_detach(self):
vert = VertexShader("A")
frag = FragmentShader("B")
program = Program(vert, frag)
program.detach(frag)
assert len(program.shaders) == 1
assert program.shaders[0].code == "A"
def __init__(self, settings=None):
# self.settings = settings
Program.__init__(self, settings)
Driver.__init__(self, settings)
print("initializing viewer")
self.settings = settings
if self.settings["verbose"]:
print()
print("Settings:")
print()
print(
pformat([f"{k}: {v}" for k, v in settings.items()
]).lstrip('[').rstrip(']'))
print()
self.env = Environment(DEFAULT_VARS)
# programs should be loaded from a directory located by a configuration file setting
self.programs = list()
self.fig = plt.figure()
self.ax = self.fig.add_subplot(111,
projection='3d',
xlim=(0, 6),
ylim=(0, 6))
# self.ax.plot([0.0, 1.0], [0.2, 0.7], 0.4)
self.current_position = Point()
plt.show()
self.current_program = NCProgram()
def main():
root = tkinter.Tk()
from libs import painter
#import pdb;pdb.set_trace()
program = Program(painter)
try:
fileToLoad = sys.argv[1]
except IndexError:
print("Ne file specified, opening first.lsa")
fileToLoad = "first.lsa"
program.load_file(fileToLoad)
#Create the gui widgets
menuBar = gui.MenuBar(root, program)
stepChanger = gui.StepChanger(root, program)
text = gui.TextInput(root, program)
contextShower = painter.ContextShower(root)
activeStateShower = gui.ActiveStateShower(root, program, contextShower)
stepOutput = gui.StepOutput(root, text, program)
textHelp = gui.TextHelp(root, text, program)
help = gui.HelpShower(root, program)
#Place them in the rigth order
root['menu'] = menuBar
root.grid_propagate(True)
stepChanger.grid(row=0, column=0, columnspan=50, sticky="nesw")
vScrollbar = tkinter.Scrollbar(root, orient=tkinter.VERTICAL)
vScrollbar.grid(row=1, column=0, sticky="nesw")
text.grid(row=1, column=10, sticky="nesw")
textHelp.grid(row=1, column=11, sticky="nesw")
stepOutput.grid(row=1, column=12, sticky="nesw")
activeStateShower.grid(row=1, column=13, sticky="nesw")
help.grid(row=2, column=0, columnspan=50, sticky="nesw")
root.columnconfigure(0, weight=0)
root.columnconfigure(10, weight=2)
root.columnconfigure(11, weight=1)
root.columnconfigure(12, weight=2)
root.columnconfigure(13, weight=0)
root.rowconfigure(0, weight=0)
root.rowconfigure(1, weight=1)
root.rowconfigure(2, weight=0)
def proxy_yview(*args, **kwords):
text.yview(*args, **kwords)
textHelp.on_activeStep_changed()
stepOutput.on_steps_changed()
def proxy_set(*args, **kwords):
vScrollbar.set(*args, **kwords)
textHelp.on_activeStep_changed()
stepOutput.on_steps_changed()
text['yscrollcommand'] = proxy_set
vScrollbar['command'] = proxy_yview
# create the interpretor and go, go, go
interpretor = interpreter.Interpreter(program)
root.after(500, lambda : program.event("source_changed")())
root.mainloop()
def main(argv=None, syslog=syslog):
if argv is None:
argv = sys.argv[1:]
program = Program(__version__, __updated__, argv, syslog)
program.mainLoop()
program.logFinish()
def message_wylio(self, event):
global program
try:
log("WylioServer message wylio received")
print event['wylio']
if event['wylio']['run']:
#print "run in wylio"
code = event['wylio']['run']
file = open('received_program.py', 'w')
file.write(code)
file.close()
if program != None:
program.stop()
program = Program(1,'received_program.py')
try:
thread.start_new_thread(program.run,(self,event['from']))
print "created thread"
except:
traceback.print_exc()
log("Error creating thread")
if event['wylio']['value']:
signal = event['wylio']['value']['signal']
value = event['wylio']['value']['value']
if program != None:
program.sendSensorInput(signal,value)
except:
traceback.print_exc()
def jumpleq(state: Program, address1: int, address2: int, address3: int):
"""If Value in Address 1 <= Value in Address 2, Jump to Address 3
Args:
state: the program state
address1: address 1
address2: address 2
address3: the address to jump to
Notes:
Rules for legal argument ranges and syntactical correctness:
Jumps may lead to any address in the dynamic range [Min, Max + 1]
"""
address1 = state.read(state, address1)
if state.halt is not None:
return
address2 = state.read(state, address2)
if state.halt is not None:
return
if address1 <= address2:
Primitives.jump(state, address3)
if state.halt is not None:
return
else:
state.jumped = False
def run_mem(savedstate=""):
with zipfile.ZipFile(os.path.join("source", "challenge.zip"), 'r') as zip:
machine = zip.read('challenge.bin')
program = Program()
program.load_bytes(machine)
show_all = False
if len(savedstate):
program.deserialize(savedstate)
memory = []
while True:
program.run(abort_on_input=True)
if len(memory) == 0:
memory = program.memory[:]
else:
for i in range(len(memory)):
if memory[i] != program.memory[i]:
if show_all or i == 2732:
print(f"{i} => {memory[i]} != {program.memory[i]}")
temp = input("Step? ")
if temp.startswith("all"):
show_all = not show_all
elif temp.startswith("room "):
temp = temp[4:]
program.memory[2732] = int(temp)
elif temp.startswith("mem "):
temp = temp[4:].split(' ')
program.memory[int(temp[0])] = int(temp[1])
elif temp == "reset":
memory = program.memory[:]
else:
program.input_buffer += temp + "\n"
def free(state: Program, address1: int):
# No more than 5 work tape cells may be Allocated or Freed at a time.
if address1 > 5 or address1 <= 0 or (state.min + address1) > 0:
state.halt = HaltingCode.ERROR_FREE_OUT_BOUNDS
return
state.free(address1)
def search_next(cur, program, fo_remain, ho_remain, target_len):
if len(program) == target_len:
p = Program()
for s in program:
p.append_step(Step(*s))
PROGRAMs.append(p)
# print p
return
else:
valid_fo_funcs = filter(lambda x: FUNCs['FO'][x][1][0] == cur[2] \
if len(FUNCs['FO'][x][1]) == 1 \
else FUNCs['FO'][x][1][1] == cur[2], fo_remain)
# len(FUNCs['HO'][x][1]) == 2 \ and
valid_ho_funcs = filter(lambda x: FUNCs['HO'][x][1][1] == cur[2],
ho_remain)
for func in valid_fo_funcs:
search_next(FUNCs['FO'][func], \
program+[(func,)], \
filter(lambda x: x!=func, valid_fo_funcs), \
valid_ho_funcs, \
target_len)
for func in valid_ho_funcs:
for lambs in filter(lambda x: (Lambdas[x][3], Lambdas[x][2])\
==FUNCs['HO'][func][1][0], \
[l for l in Lambdas]):
search_next(FUNCs['HO'][func], \
program+[(func, lambs)], \
valid_fo_funcs, \
filter(lambda x: x!=func, valid_ho_funcs), \
target_len)
def test_detach(self):
vert = VertexShader("A")
frag = FragmentShader("B")
program = Program(vert, frag)
program.detach(frag)
assert len(program.shaders) == 1
assert program.shaders[0].code == "A"
def main():
app = None
try:
from program import Program
app = Program()
app.run()
except Exception as exc:
traceback.print_exc(file=open(ERROR_LOG, "w"))
class Error(App):
theme_cls = kivymd.theming.ThemeManager()
def report_callback(self, *args):
try:
import webbrowser
webbrowser.open(PROJ_REPO + "/issues/new?body=" + str(exc))
except Exception:
traceback.print_exc(file=open(ERROR_LOG, "w"))
sys.exit(1)
def build(self):
return BugReporter(report_callback=self.report_callback)
Error().run()
def main():
INSTRUCTION = """
0 - exit
1 - sort by name in non-decreasing order
2 - sort by name in non-increasing order
3 - sort by destination in non-decreasing order
4 - sort by destination in non-increasing order
5 - sort by flight number in non-decreasing order
6 - sort by flight number in non-increasing order
7 - sort by price in non-decreasing order
8 - sort by price in non-increasing order
9 - find aeroflots with provided destination
10 - find aeroflots with provided name
11 - find aeroflots with provided departure day
12 - add new aeroflot
13 - delete aeroflot by index
14 - edit aeroflot(enter index and field which you want to change)
15 - print aeroflots
"""
print(INSTRUCTION)
path_read = input("enter path_read: ")
path_write = input("enter path_write: ")
reader = ReadFromFile(path_read)
file = FileEditor(path_write)
collection = reader.read()
menu = Program(collection)
while True:
try:
menu.menu(file)
except Exception as s:
print(s)
def main():
logging.basicConfig(level=logging.DEBUG)
logging.info('Started')
lv = LoadValues()
lines = lv.strip_lines()
instr = get_instructions(lines)
prog = Program(instr)
(_, ip, acc) = prog.does_terminate()
print("Star 1 : ", acc)
finished = None
for (i, cur_instr) in enumerate(instr):
if cur_instr[0] == 'nop' or cur_instr[0] == 'jmp':
instr2 = instr.copy()
if cur_instr[0] == 'nop':
instr2[i] = ('jmp', cur_instr[1])
else:
instr2[i] = ('nop', cur_instr[1])
(res, ip, acc) = Program(instr2).does_terminate()
if res:
finished = (ip, acc)
break
print("Star 2 : ", acc)
logging.info('Finished')
def execute(self, program: Program):
variable = program.var_get('SETCHAR', self.args[0])
index = program.get_symb('SETCHAR', self.args[1])
toModify = program.get_symb('SETCHAR', self.args[2])
if variable is None:
exit_app(exitCodes.UNDEFINED_VALUE, 'SETCHAR\nUndefined variable.',
True)
if not index.is_int() or not variable.is_string() or\
not toModify.is_string():
exit_app(exitCodes.INVALID_DATA_TYPE,
'SETCHAR\nExpected: string variable, int, string', True)
if len(toModify.value) == 0 or index.value >= len(variable.value):
exit_app(exitCodes.INVALID_STRING_OPERATION,
'SETCHAR\nZero length of to modify characters.', True)
try:
result = "{}{}{}".format(variable.value[:index.value],
toModify.value[0],
variable.value[index.value + 1:])
program.var_set('SETCHAR', self.args[0],
Symbol(DataTypes.STRING, result))
except IndexError:
exit_app(exitCodes.INVALID_STRING_OPERATION,
'SETCHAR\nIndex is out of range.', True)
def __parse_program():
if Parser.tokens.current is None:
raise ValueError("File cannot be empty")
if Parser.tokens.current.type == "PROGRAM":
Parser.tokens.next()
if Parser.tokens.current.type == "IDENTIFIER":
Parser.tokens.next()
if Parser.tokens.current.type == "SEMICOLON":
Parser.tokens.next()
node = Program()
node.set_child(Parser.__parse_block())
if Parser.tokens.current is None or \
Parser.tokens.current.type != "DOT":
raise ValueError(
f"Expecting final dot (.). Got: {Parser.tokens.current.type}"
)
else:
raise ValueError(
f"Fatal: Syntax error, \";\" expected" +
f" but \"{Parser.tokens.current.type}\" found")
else:
raise ValueError(
f"Fatal: Syntax error, \"IDENTIFIER\" expected" +
f" but \"{Parser.tokens.current.type}\" found")
else:
raise ValueError(f"Fatal: Syntax error, \"PROGRAM\" expected" +
f" but \"{Parser.tokens.current.type}" +
f" {Parser.tokens.current.value}\" found")
return node
def process_phase_sequence(self, phase_sequence):
program_a = Program(self.program, default_inputs=[phase_sequence[0], 0])
program_b = Program(self.program, default_inputs=[phase_sequence[1], program_a.outputs.pop()])
program_c = Program(self.program, default_inputs=[phase_sequence[2], program_b.outputs.pop()])
program_d = Program(self.program, default_inputs=[phase_sequence[3], program_c.outputs.pop()])
program_e = Program(self.program, default_inputs=[phase_sequence[4], program_d.outputs.pop()])
return program_e.outputs.pop()
def test_allocation_get_channel():
program = Program([Push(0), Pop(0), Push(1), Push(2), Pop(2)])
assert program.get_channel_for_port_key(0, KEY_CKS_DATA) == 0
assert program.get_channel_for_port_key(0, KEY_CKS_CONTROL) == 3
assert program.get_channel_for_port_key(1, KEY_CKR_DATA) is None
assert program.get_channel_for_port_key(2, KEY_CKS_DATA) == 2
def display():
glClearColor(20 / 255, 20 / 255, 20 / 255, 1)
ShadowProgram.use()
glClear(GL_DEPTH_BUFFER_BIT)
if not Display._show_shadow_map:
glBindFramebuffer(GL_FRAMEBUFFER, ShadowMap.depth_buffer)
glViewport(0, 0, ShadowMap.width, ShadowMap.height)
glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT)
glEnableClientState(GL_VERTEX_ARRAY)
glBindBuffer(GL_ARRAY_BUFFER, Model.vbo)
glVertexPointer(3, GL_FLOAT, 0, None)
glBindBuffer(GL_ARRAY_BUFFER, 0)
glDrawArrays(GL_TRIANGLES, 0, len(vertices))
glDisableClientState(GL_VERTEX_ARRAY)
if glCheckFramebufferStatus(
GL_FRAMEBUFFER) != GL_FRAMEBUFFER_COMPLETE:
exit(1)
Display._check_map()
ShadowProgram.disable()
if Display._show_shadow_map:
glutSwapBuffers()
glutPostRedisplay()
return
Program.use()
glBindFramebuffer(GL_FRAMEBUFFER, 0)
glClearDepth(1)
glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT)
glViewport(0, 0, Config.width, Config.height)
glActiveTexture(GL_TEXTURE0)
glBindTexture(GL_TEXTURE_2D, ShadowMap.depth_texture)
glEnableClientState(GL_VERTEX_ARRAY)
glEnableClientState(GL_TEXTURE_COORD_ARRAY)
glEnableClientState(GL_NORMAL_ARRAY)
glBindBuffer(GL_ARRAY_BUFFER, Model.vbo)
glVertexPointer(3, GL_FLOAT, 0, None)
glBindBuffer(GL_ARRAY_BUFFER, Model.tbo)
glTexCoordPointer(2, GL_FLOAT, 0, None)
glBindBuffer(GL_ARRAY_BUFFER, Model.nbo)
glNormalPointer(GL_FLOAT, 0, None)
glDrawArrays(GL_TRIANGLES, 0, len(vertices))
glBindBuffer(GL_ARRAY_BUFFER, 0)
glDisableClientState(GL_VERTEX_ARRAY)
glDisableClientState(GL_TEXTURE_COORD_ARRAY)
glDisableClientState(GL_NORMAL_ARRAY)
Program.disable()
glutSwapBuffers()
glutPostRedisplay()
def move(state: Program, address1: int, address2: int):
address1 = state.read(state, address1)
if state.halt is not None:
return
state.write(state, address2, address1)
if state.halt is not None:
return
def reshape(width, height):
Program.use()
glViewport(0, 0, width, height)
gluPerspective(100, width / height, 0.1, 50)
gluLookAt(*(10, 10, 10), *(0, 0, 0), *(0, 1, 0))
Display.width = width
Display.height = height
return
def decrement(state: Program, address1: int):
v1 = state.read(state, address1)
if state.halt is not None:
return
state.write(state, address1, v1 - 1)
if state.halt is not None:
return
def execute(self, program: Program):
symb1 = program.get_symb(self.opcode, self.args[1])
symb2 = program.get_symb(self.opcode, self.args[2])
validate_math_symbols(self.opcode, symb1, symb2)
result = self.compute(symb1, symb2)
program.var_set(self.opcode, self.args[0], result)
def execute(self, program: Program):
if len(program.data_stack) == 0:
exit_app(
exitCodes.UNDEFINED_VALUE,
'POPS\nInstruction {}. Data Stack is empty.'.format(
self.opcode), True)
program.var_set('POPS', self.args[0], program.pop_stack(1)[0])
def test_P15():
print('P15 program, floor of average of inputs, with debug printing:')
p = Program(num_prog_inputs=2)
p.create_add_component()
p.create_and_component()
p.create_xor_component()
p.create_bitshiftright_component(1)
timed_synthesis(p, BVT.P15, 100000, True)
def execute(self, program: Program):
symb = program.get_symb('TYPE', self.args[1], False)
if symb is None:
program.var_set('TYPE', self.args[0], Symbol(DataTypes.STRING, ''))
else:
program.var_set('TYPE', self.args[0],
Symbol(DataTypes.STRING, symb.data_type.value))
def test_attach(self):
vert = VertexShader("A")
frag = FragmentShader("B")
program = Program(vert)
program.attach(frag)
assert len(program.shaders) == 2
assert program.shaders[0].code == "A"
assert program.shaders[1].code == "B"
def P16():
p = Program(num_prog_inputs=2)
p.create_xor_component()
p.create_xor_component()
p.create_negate_component()
p.create_and_component()
p.create_ule_component()
return ProgramSynthesis(p, BVT.P16, 'P16')
def initgl(self):
glEnable(GL_TEXTURE_2D)
glEnable(GL_BLEND)
glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA)
self.program = Program.load(in_module('glsl/flat.glsl'))
self.program_ms = Program.load(in_module('glsl/flat_ms.glsl'))
self.use_program(self.resolution)
self.stream = BufferStream(Vertex, GL_TRIANGLES)
def execute(self, program: Program):
arg = self.args[0]
if program.var_exists(arg):
exit_app(exitCodes.SEMANTIC_ERROR,
'DEFVAR\nVariable {} now exists. Cannot redefine.', True)
program.var_set('DEFVAR', arg, None, True)
def test_attach(self):
vert = VertexShader("A")
frag = FragmentShader("B")
program = Program(vert)
program.attach(frag)
assert len(program.shaders) == 2
assert program.shaders[0].code == "A"
assert program.shaders[1].code == "B"
def main():
parser = argparse.ArgumentParser(description='You started a proxy-script.'
' Enter your port to use '
'this')
parser.add_argument('-p', '--port', help='This will be your port')
port = parser.parse_args().port
prog = Program(port)
prog.process()
def handle_program_status():
"""
Expose the program status
"""
logging.debug("program_status")
prog = Program("")
if app.prog:
prog = app.prog
return json.dumps({'name': prog.name, "running": prog.is_running(), "log": app.prog_engine.get_log()})
class Commander(object):
def __init__(self, program):
self.program = Program(program)
self.army = list()
self.enemies = list()
self.army_name = self.find_army_name()
def find_army_name(self):
try:
name = self.do_find_army_name()
except Exception:
# If program fails to implement -n properly, just choose
# a random name.
name = 'army-%d'% random.randint(1,10000000)
return name
def do_find_army_name(self):
arguments = ProgramArguments()
reader = FileReader(self)
output_filename = FileUtils.get_new_filename()
arguments.add('-n')
arguments.add('-o', output_filename)
self.program.execute(arguments)
name = reader.read_name(output_filename)
FileUtils.remove_file(output_filename)
return name
def get_army_name(self):
return self.army_name
def get_army(self):
return self.army
def set_army(self, soldiers):
map(self.set_army_on_soldier, soldiers)
self.army = soldiers
def set_army_on_soldier(self, soldier):
army_name = self.get_army_name()
soldier.set_army_name(army_name)
def add_enemies(self, enemies):
self.enemies.extend(enemies)
def read_file_or_raise(self, filename, writer, context):
reader = FileReader(context)
try:
data = reader.read(filename)
except IOError:
raise MissingFileException(self.army_name, self.program,
writer.get_filename())
except ParsingException, e:
e.set_army_name(self.army_name)
raise e
else:
def eval(self, text):
"""Respond to text entered by the user.
:param text: the user's input
"""
program = Program(text, echo=self.echo, transforms=self.transforms)
tokens = program.gen_tokens()
for sentence in program.gen_sentences(tokens, self.aliases):
if self.echo:
self.terminal.debug(str(sentence))
program.interpret(sentence, self.commands)
def launch_f2c(self):
is_running = False
for p in psutil.process_iter():
try:
if p.name() == "FlowchartToCode.exe":
print "Flowchart To Code is already running"
is_running = True
except psutil.error:
pass
if not is_running:
f2c = Program(self.f2c_path)
f2c.start()
print "program {} started".format(self.f2c_path)
def launch_dia(self):
is_running = False
for p in psutil.process_iter():
try:
if p.name() == "dia.exe":
print "Dia is already running"
is_running = True
except psutil.error:
pass
if not is_running:
dia = Program(self.dia_path)
dia.start()
print "program {} started".format(self.dia_path)
def launch_intellij(self):
is_running = False
for p in psutil.process_iter():
try:
if p.name() == "idea.exe":
print "IntelliJ IDEA is already running"
is_running = True
except psutil.error:
pass
if not is_running:
intellij = Program(self.intellij_path)
intellij.start()
print "program {} started".format(self.intellij_path)
class programTest(unittest.TestCase):
def setUp(self):
self.fixture = Program(1, 1, "-d 1".split(' '), FakeSyslog())
def test_default_options_are_set(self):
fixture = self.fixture
self.assertEqual('1', fixture.opts.keyid)
self.assertEqual(None, fixture.opts.verbose)
self.assertEqual('0000', fixture.opts.pin)
self.assertEqual('/usr/lib/opensc-pkcs11.so', fixture.opts.module)
self.assertEqual(None, fixture.opts.environment)
self.assertEqual('localhost', fixture.opts.host)
self.assertEqual(256, fixture.opts.inputlength)
self.assertEqual(256, fixture.opts.outputlength)
self.assertEqual('SHA512-RSA-PKCS', fixture.opts.mechanism)
self.assertEqual(9999, fixture.opts.port)
def test_keyid_can_be_given_with_d(self):
self.fixture.parseArgs("-d 2222".split(' '))
self.assertEqual('2222', self.fixture.opts.keyid)
def test_verbose_can_be_set_with_v(self):
self.fixture.parseArgs("-d 1 -v".split(' '))
self.assertEqual(1, self.fixture.opts.verbose)
def test_verbose_level_is_increased_with_all_v(self):
self.fixture.parseArgs("-d 1 -vvvv".split(' '))
self.assertEqual(4, self.fixture.opts.verbose)
def test_outputlength_is_set_by_o(self):
self.fixture.parseArgs("-d 1 -o 511".split(' '))
self.assertEqual(511, self.fixture.opts.outputlength)
def execute_file(fname):
program = Program(fname)
state = ExecutionState()
done = False
try:
while not done:
pc = state.read_program_cntr()
state.write_program_cntr(pc + 1)
cmd = program.fetch(pc)
if DEBUG_MODE:
print "Executing: '"+str(cmd)+"'"
done = cmd.execute(state)
except Exception as e: print e
finally: print "Stack:", str(state)
def __init__(self, name, command, positions, verbose):
Thread.__init__(self)
self._name = name
self._positions = positions
self._verbose = verbose
command = command + " --logfile-name=" + name + ".log"
self._program = Program(command, verbose)
def load_programs_from_xml(xml_root, exercise_type_dict):
program_dict = {}
programs_node = xml_root.find("programs")
for program_node in programs_node:
program_name = program_node.get("name")
program_description = program_node.get("description")
program = Program(program_name, program_description)
for action_node in program_node:
action_exercise_name = action_node.get("exercise")
action_exercise_type = exercise_type_dict[action_exercise_name]
action_nb_series = int(action_node.get("nbSeries"))
action_rest = int(action_node.get("rest"))
action_min = int(action_node.get("min"))
action_goal = int(action_node.get("goal"))
program.add_action(action_exercise_type, action_nb_series, action_rest, action_min, action_goal)
program_dict[program_name] = program
return program_dict
class agent:
def __init__(self, exe):
self.exe = exe
self.program = Program(self.exe, True)
self.name = self.program.sendCommand("name").strip()
self.lock = threading.Lock()
def sendCommand(self, command):
self.lock.acquire()
answer = self.program.sendCommand(command)
self.lock.release()
return answer
def reconnect(self):
self.program.terminate()
self.program = Program(self.exe,True)
self.lock = threading.Lock()
def __init__(self, output, default_font, program=None):
self.output = output
self.default_font = default_font
self.stream = VertexStream(fmt)
self.textures = TextureCache()
if program is None:
self.program = Program.load(in_module('shaders/flat.glsl'))
else:
self.program = program
def create_program(self):
self.command = 0
self.program = Program(self.display)
self.program.add_command("^", "Forward", self.wheels.forwards, self.wheels.stop)
self.program.add_command("v", "Backward", self.wheels.backwards, self.wheels.stop)
self.program.add_command("<", "Left", self.wheels.left, self.wheels.stop)
self.program.add_command(">", "Right", self.wheels.right, self.wheels.stop)
self.program.add_command("{", "Slow Left", self.wheels.slow_left, self.wheels.stop)
self.program.add_command("}", "Slow Right", self.wheels.slow_right, self.wheels.stop)
self.add_component("Program", self.program)
def main():
app = None
try:
from program import Program # основной класс программы
# Запуск приложения.
app = Program()
app.run()
except Exception as exc:
print(traceback.format_exc())
traceback.print_exc(file=open("{}/error.log".format(
os.path.split(os.path.abspath(sys.argv[0]))[0]), "w"))
if app: # очищаем экран приложения от всех виджетов
app.start_screen.clear_widgets()
class Error(App):
"""Выводит экран с текстом ошибки."""
def callback_report(self, *args):
"""Функция отправки баг-репорта"""
try:
import webbrowser
import six.moves.urllib
txt = six.moves.urllib.parse.quote(
self.win_report.txt_traceback.text.encode(
"utf-8"))
url = "https://github.com/HeaTTheatR/KivyCleanMasterDemo" \
"/issues/new?body=" + txt
webbrowser.open(url)
except Exception:
sys.exit(1)
def build(self):
self.win_report = BugReporter(
callback_report=self.callback_report, txt_report=str(exc),
icon_background="Data/Images/logo.png")
return self.win_report
Error().run()
class WrapperAgent(object):
def __init__(self, executable, verbose=False):
self.executable=executable
self.program=Program(self.executable, verbose)
self.name=self.program.sendCommand("name").strip()
self.lock=threading.Lock()
def sendCommand(self, command):
self.lock.acquire()
answer=self.program.sendCommand(command)
self.lock.release()
return answer
def reconnect(self):
self.program.terminate()
self.program=Program(self.executable, True)
self.lock=threading.Lock()
def play_black(self, move):
self.sendCommand("play black "+move)
def play_white(self, move):
self.sendCommand("play white "+move)
def genmove_black(self):
return self.sendCommand("genmove black").strip()
def genmove_white(self):
return self.sendCommand("genmove white").strip()
def clear_board(self):
self.sendCommand("clear_board")
def set_board_size(self, size):
self.sendCommand("boardsize "+repr(size))
def play_move_seq(self, moves_seq):
turn=0
for m in moves_seq:
self.play_black(m) if turn==0 else self.play_white(m)
turn = (turn+1)%2
def mutate(self, programs_population):
"""
Generates mutation chances and mutate the team if it is a valid mutation.
"""
if Config.USER['advanced_training_parameters']['use_agressive_mutations']:
mutation_chance = 1
while (mutation_chance > random.random()
and len(self.programs) > Config.USER['training_parameters']['team_size']['min']):
self._randomly_remove_program()
mutation_chance = mutation_chance * Config.USER['training_parameters']['mutation']['team']['remove_program']
mutation_chance = 1
while (mutation_chance > random.random()
and len(self.programs) < Config.USER['training_parameters']['team_size']['max']):
self._randomly_add_program(programs_population)
mutation_chance = mutation_chance * Config.USER['training_parameters']['mutation']['team']['add_program']
else:
if len(self.programs) > Config.USER['training_parameters']['team_size']['min']:
mutation_chance = random.random()
if mutation_chance <= Config.USER['training_parameters']['mutation']['team']['remove_program']:
self._randomly_remove_program()
if len(self.programs) < Config.USER['training_parameters']['team_size']['max']:
mutation_chance = random.random()
if mutation_chance <= Config.USER['training_parameters']['mutation']['team']['add_program']:
self._randomly_add_program(programs_population)
to_mutate = []
while len(to_mutate) == 0:
for program in self.programs:
mutation_chance = random.random()
if mutation_chance <= Config.USER['training_parameters']['mutation']['team']['mutate_program']:
to_mutate.append(program)
for program in to_mutate:
clone = Program(self.generation, copy.deepcopy(program.instructions), program.action)
clone.mutate()
self._add_program(clone)
programs_population.append(clone)
if self._is_ok_to_remove(program):
self.remove_program(program)
return programs_population
def __init__(self):
self.program = Program()
self.vao = GLuint(0)
self.vbuf = None
self.ibuf = None
self.vertices = []
self.normals = []
self.indices = []
self.uvs = []
# we should really be getting the camera not creating a new instance..
self.camera = Camera(800, 600)
GameObject.__init__(self)
def test_failed_build(self):
vert = VertexShader("A")
frag = FragmentShader("B")
program = Program(verts = vert)
with self.assertRaises(ProgramException):
program.build()
program = Program(frags = frag)
with self.assertRaises(ProgramException):
program.build()
def test_failed_build(self):
vert = VertexShader("A")
frag = FragmentShader("B")
program = Program(verts = vert)
with self.assertRaises(ValueError):
program.activate()
program = Program(frags = frag)
with self.assertRaises(ValueError):
program.activate()
def loadProgram(self, fileName):
"""
Load the program in memory
@param filename: file containing the code to execute
@type filename: string
"""
try:
self.program = Program()
self.program.load(fileName, self)
self.chip.setEndProgram(False)
return True
except MemError as e:
e.display()
return False
except ProgramError:
return False
def import_data(cls):
filenm ='kegiatan.csv'
with open(filenm, 'rb') as csvfile:
reader = csv.DictReader(csvfile, delimiter=';', quotechar='"')
for row in reader:
print row
kode = row['kode'].strip()
data = cls.get_by_kode(kode)
if not data:
data=cls()
data.kode = kode
data.created = datetime.now()
data.create_uid = 1
#data.tahun = data.created.year
#data.level_id = data.kode.count('.')+1
#data.parent_id = DBSession.query(Rekening.id).filter(Rekening.kode==data.kode[:data.kode.rfind('.')]).scalar()
data.disabled = 0
#data.defsign = 1
data.program_id=Program.get_by_kode(''.join([row['urusankd'].strip(),'.',row['programkd'].strip()])).id
data.nama = row['nama'].strip()
DBSession.add(data)
DBSession.flush()
DBSession.commit()
print "At least one of %s is alive" % GR_PROG_BIN
result = True
return result
#### -------------- MAIN start ----------------####
# create the program processor. This
# 1. accepts and process the command line options
# 2. creates XML processing engine, that in turn
# a) validates the XML file
# b) extracts the DOM object tree
# c) populates the GINI network class library
# d) performs some semantic/syntax checkings on
# the extracted specification
myProg = Program(sys.argv[0], SRC_FILENAME)
if (not myProg.processOptions(sys.argv[1:])):
sys.exit(1)
options = myProg.options
# set the UML directory if is not given via -u option
if (not options.umlDir):
# set it to the directory pointed by the $UML_DIR env
# if no such env variable, set the uml dir to curr dir
if (os.environ.has_key("UML_DIR")):
options.umlDir = os.environ["UML_DIR"]
else:
options.umlDir = "."
# get the binaries
binDir = options.binDir
from base import * from rekening import Rekening from rekening_hukum import DasarHukum from urusan import Urusan from fungsi import Fungsi from fungsi_urusan import FungsiUrusan from unit import Unit from program import Program from kegiatan import Kegiatan if __name__ == '__main__': Rekening.import_data() DasarHukum.import_data() Urusan.import_data() Fungsi.import_data() FungsiUrusan.import_data() Unit.import_data() Program.import_data() Kegiatan.import_data()
def __init__(self, app=None, name = "default"):
info("Creating script")
self.extension = "scr"
Program.__init__(self, None)
DictObj.__init__(self, "script", app, name)
self.repr_blacklist += ["exit", "sleep_event", "freeze_event", "next_event_in"]
help="human plays first (if not present default to second)")
parser.add_argument("--boardsize", "-b", type=int, help="side length of (square) board")
parser.add_argument("--time", "-t", type=int, help="total time allowed for each move in seconds")
args = parser.parse_args()
if args.boardsize:
boardsize = args.boardsize
else:
boardsize = 11
if args.time:
time = args.time
else:
time = 10
agent = Program(args.program, False)
agent.sendCommand("boardsize "+str(boardsize))
agent.sendCommand("set_time "+str(time))
human_game = gamestate(boardsize)
game = gamestate(boardsize)
winner = None
moves = []
while(True):
if(args.first):
moves.append(get_human_move(game, human_game, "black"))
if(game.winner() != game.PLAYERS["none"]):
winner = game.winner()
break
print("waiting for opponent...")
